WO2022171507A1 - Silices amorphes non poreuses - Google Patents
Silices amorphes non poreuses Download PDFInfo
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- WO2022171507A1 WO2022171507A1 PCT/EP2022/052516 EP2022052516W WO2022171507A1 WO 2022171507 A1 WO2022171507 A1 WO 2022171507A1 EP 2022052516 W EP2022052516 W EP 2022052516W WO 2022171507 A1 WO2022171507 A1 WO 2022171507A1
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- WO
- WIPO (PCT)
- Prior art keywords
- less
- equal
- still
- silica particles
- still preferably
- Prior art date
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- 239000004408 titanium dioxide Substances 0.000 description 1
- 229960005196 titanium dioxide Drugs 0.000 description 1
- 235000010215 titanium dioxide Nutrition 0.000 description 1
- 229960003500 triclosan Drugs 0.000 description 1
- MLIKYFGFHUYZAL-UHFFFAOYSA-K trisodium;hydron;phosphonato phosphate Chemical compound [Na+].[Na+].[Na+].OP([O-])(=O)OP([O-])([O-])=O MLIKYFGFHUYZAL-UHFFFAOYSA-K 0.000 description 1
- WGIWBXUNRXCYRA-UHFFFAOYSA-H trizinc;2-hydroxypropane-1,2,3-tricarboxylate Chemical compound [Zn+2].[Zn+2].[Zn+2].[O-]C(=O)CC(O)(CC([O-])=O)C([O-])=O.[O-]C(=O)CC(O)(CC([O-])=O)C([O-])=O WGIWBXUNRXCYRA-UHFFFAOYSA-H 0.000 description 1
- 239000011782 vitamin Substances 0.000 description 1
- 235000013343 vitamin Nutrition 0.000 description 1
- 229940088594 vitamin Drugs 0.000 description 1
- 229930003231 vitamin Natural products 0.000 description 1
- 239000000341 volatile oil Substances 0.000 description 1
- 230000002087 whitening effect Effects 0.000 description 1
- 239000009637 wintergreen oil Substances 0.000 description 1
- 229920001285 xanthan gum Polymers 0.000 description 1
- 235000010493 xanthan gum Nutrition 0.000 description 1
- 239000000230 xanthan gum Substances 0.000 description 1
- 229940082509 xanthan gum Drugs 0.000 description 1
- 239000000811 xylitol Substances 0.000 description 1
- 235000010447 xylitol Nutrition 0.000 description 1
- 229960002675 xylitol Drugs 0.000 description 1
- HEBKCHPVOIAQTA-SCDXWVJYSA-N xylitol Chemical compound OC[C@H](O)[C@@H](O)[C@H](O)CO HEBKCHPVOIAQTA-SCDXWVJYSA-N 0.000 description 1
- 239000011592 zinc chloride Substances 0.000 description 1
- 235000005074 zinc chloride Nutrition 0.000 description 1
- 229960001939 zinc chloride Drugs 0.000 description 1
- 239000011746 zinc citrate Substances 0.000 description 1
- 235000006076 zinc citrate Nutrition 0.000 description 1
- 229940068475 zinc citrate Drugs 0.000 description 1
- UHVMMEOXYDMDKI-JKYCWFKZSA-L zinc;1-(5-cyanopyridin-2-yl)-3-[(1s,2s)-2-(6-fluoro-2-hydroxy-3-propanoylphenyl)cyclopropyl]urea;diacetate Chemical class [Zn+2].CC([O-])=O.CC([O-])=O.CCC(=O)C1=CC=C(F)C([C@H]2[C@H](C2)NC(=O)NC=2N=CC(=CC=2)C#N)=C1O UHVMMEOXYDMDKI-JKYCWFKZSA-L 0.000 description 1
- GFQYVLUOOAAOGM-UHFFFAOYSA-N zirconium(iv) silicate Chemical compound [Zr+4].[O-][Si]([O-])([O-])[O-] GFQYVLUOOAAOGM-UHFFFAOYSA-N 0.000 description 1
Classifications
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01B—NON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
- C01B33/00—Silicon; Compounds thereof
- C01B33/113—Silicon oxides; Hydrates thereof
- C01B33/12—Silica; Hydrates thereof, e.g. lepidoic silicic acid
- C01B33/18—Preparation of finely divided silica neither in sol nor in gel form; After-treatment thereof
- C01B33/187—Preparation of finely divided silica neither in sol nor in gel form; After-treatment thereof by acidic treatment of silicates
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61Q—SPECIFIC USE OF COSMETICS OR SIMILAR TOILETRY PREPARATIONS
- A61Q11/00—Preparations for care of the teeth, of the oral cavity or of dentures; Dentifrices, e.g. toothpastes; Mouth rinses
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K8/00—Cosmetics or similar toiletry preparations
- A61K8/02—Cosmetics or similar toiletry preparations characterised by special physical form
- A61K8/0241—Containing particulates characterized by their shape and/or structure
- A61K8/025—Explicitly spheroidal or spherical shape
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K8/00—Cosmetics or similar toiletry preparations
- A61K8/02—Cosmetics or similar toiletry preparations characterised by special physical form
- A61K8/0241—Containing particulates characterized by their shape and/or structure
- A61K8/0254—Platelets; Flakes
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K8/00—Cosmetics or similar toiletry preparations
- A61K8/18—Cosmetics or similar toiletry preparations characterised by the composition
- A61K8/19—Cosmetics or similar toiletry preparations characterised by the composition containing inorganic ingredients
- A61K8/25—Silicon; Compounds thereof
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K2800/00—Properties of cosmetic compositions or active ingredients thereof or formulation aids used therein and process related aspects
- A61K2800/80—Process related aspects concerning the preparation of the cosmetic composition or the storage or application thereof
- A61K2800/805—Corresponding aspects not provided for by any of codes A61K2800/81 - A61K2800/95
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2004/00—Particle morphology
- C01P2004/01—Particle morphology depicted by an image
- C01P2004/03—Particle morphology depicted by an image obtained by SEM
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2004/00—Particle morphology
- C01P2004/01—Particle morphology depicted by an image
- C01P2004/04—Particle morphology depicted by an image obtained by TEM, STEM, STM or AFM
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2004/00—Particle morphology
- C01P2004/30—Particle morphology extending in three dimensions
- C01P2004/32—Spheres
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2004/00—Particle morphology
- C01P2004/60—Particles characterised by their size
- C01P2004/61—Micrometer sized, i.e. from 1-100 micrometer
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2006/00—Physical properties of inorganic compounds
- C01P2006/11—Powder tap density
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2006/00—Physical properties of inorganic compounds
- C01P2006/12—Surface area
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2006/00—Physical properties of inorganic compounds
- C01P2006/14—Pore volume
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2006/00—Physical properties of inorganic compounds
- C01P2006/16—Pore diameter
Definitions
- the present disclosure relates generally to amorphous, non-porous silicas and methods of making and using the same in oral compositions.
- Silica exists in many different forms including both naturally occurring mineral and synthetic forms. Within the synthetic amorphous silica family, there exists silica gel, fumed silica, precipitated silica, fused silica and silica fume. These species of silica are characterized by their method of manufacture that yield specific final properties and structure. Silica gels, fumed silica and precipitated silica are generally porous materials made up of aggregates of primary particles. These silica products are generally formed by converting liquid silicate solutions or silanes into solid silica particles. Fused and silica fume tend to be solid, non-porous silica materials generally prepared via a melting process wherein these products go from a liquid state to a solid silica.
- U.S. Pat. No. 8,734,764 discloses oral compositions comprising fused silica as a dental abrasive.
- the fused silica disclosed therein can be produced by fusing silicon dioxide powder by flames of high temperatures (for example 2,000°C to 3,000°C) or by oxidizing and dissolving silicon powder or cyclic siloxane by high temperature flames.
- the silica since the silica is fused once and solidified, the silica particles have a high density and an increased hardness.
- the fused silica particles are disclosed as preferably having a high degree of sphericity i.e. their shape is close to be a complete sphere.
- BET specific surface area of the fused silica is disclosed as 15m 2 /g or less, preferably 10 or less.
- Oil absorption is disclosed as usually 20 mL/IOOg or less, preferably I0 mL/IOOg.
- oral composition comprising fused silica disclosed therein and a dental abrasive has a high stain removal ability relative to its abrasive ability, thereby making it possible to efficiently remove stains without damaging the teeth more than necessary.
- WO 2014/071284 discloses precipitated silicas that have been subjected to rapid heat treatment (e.g., above 800°C) to reduce surface hydroxyl on the silica while maintaining the inner precipiated silica structure, resulting in improved stability with metal ions such as stannous ions in an oral care composition.
- WO 2019/068596 discloses spherical, anhydrous, amorphous silica gel particles having a pore volume of less than 0.1 ml/g useful in a dentifrice composition. The silica gel particles therein are non-fused, but rather are obtained by precipitation followed by calcination (i.e. ,, heating to a high temperature but below melting or fusing point) to remove water to produce a dense (low porosity or non-porous) particulate silica material.
- EP 0 216278 discloses non-porous, spherical silica partilces with particle diameters between 0.05 and 10 microns and are highly monodisperse, made from hydrolytic polycondensation of tetraalkoxysilanes in aqueous alcoholic-ammoniakalisches medium.
- U.S. Pat. 3,939,262 and U.S. Pat. 4,007,260 both describe dentifrice compositions containing finely divided synthetic amorphous silica polishing agents.
- amorphous silicas are made from particulate hydrous alkali metal silicates, particularly containing 10 to 25%, preferably 15 to 20% by weight of water. These silicates are prepared by dehydrating alkali metal silicate solutions by any known drying method such as spray-drying, drum-drying, and high pressure extrusion to yield substantially hollow shaped spheres or beads.
- the synthetic amorphous silicas are then prepared by adding the particulate hydrous silicates to an aqueous acid solution to yield silicas with a surface area (BET) of about 100 to about 200 m 2 /gm and upon milling, a particle size between 3 and 20 microns.
- BET surface area
- U.S. Pat. 4,312,845 discloses synthetic amorphous silica produced by hydrothermal treatment of an aqueous dispersion of silica and sodium hydroxide to form a partly polymerized sodium silicate that can be spray dried to form hollow spheres of polysilicate, and then treated with 5 to 15% sulfuric acid to form amorphous silica with a BET between 40 m 2 /g and 420 m 2 /g and an oil adsorption greater than 60 cc/100g.
- U.S. Pat. 4,312,845 repeated the process described in U.S. Pat. 3,939,262 to produce a sample having an oil adsorption of 33 cc/100g.
- JP5762120 discloses methods for producing silica-based particles having substantially no cavity in the interior portion of the particle, wherein the interior portion is porous or nonporous (not porous), or silica-based particles having an outer shell and having a cavity inside the outer shell, wherein the outer shell is porous or nonporous.
- the method comprises (a) a step of preparing silica-based particle precursor particles by spray-drying an alkali silicate aqueous solution in a hot air flow; (b) a step of immersing the silica-based particle precursor particles in an acid aqueous solution to remove the alkali; and (c) a step of drying and heat-treating the resulting particles.
- (C) the step of drying, heat treatment temperature in the range of 90-1200°C, the obtained silica-based particles in the outer shell of non-porous silica layer is preferable.
- the outer shell has a hollow interior of the silica layer, the porosity of the cavity in the range of 20-95% by weight, nonporous silica layer and the outer shell, hollow inside and the negative pressure.
- the negative pressure inside the cavity is preferably less than or equal to 133hPa.”.
- JP5762120 also dislcoses the use of such silica particles in cosmetic and thermal insulation applications.
- WO 2019/241323 discloses a dentrifice containing spherical precipitated silica particles that are created using a continuous loop reactor process.
- the reactor loop contains a reaction slurry that is circulated numerous times before being discharged. Initially the reactor loop is filed wth a slurry that contains silica, sodium silicate, sodium sulfate, and water. Sulfuric acid is then added and the slurry is discharged as the volume increases.
- the resulting silica particles have a d50 median particle size from 4 to 25 pm, a BET Surface area of less than 10m 2 /g and a total mecury intrusion pore volume from 0.2 to 1 .5ml_/g.
- the porosity of porous silica particles can also be determined by physical methods such as Nitrogen Porosimetry and Mercury Porosimetry in which surface area and pore volume can be obtained.
- Non-porous silica particles generally have low nitrogen adsorption pore volume, low Mercury Intrusion pore volume and/or low BET surface areas.
- Other surface area measurement methods include CTAB and Acorn which utilize probe molecules cetyl trimethylammounium bromide (CTAB) and water (Acorn) to measure surface area.
- CTAB cetyl trimethylammounium bromide
- Acorn Other physical methods such as absorbtion of oil or water can also be used to determine porosity.
- a non porous material will have low absorption properties while a porous material will have high absorption properties.
- the invention provides the following:
- the oral composition of any formulae 1.1-1.11 wherein the intraparticle mercury intrusion volume of such silica particles of pores less than 0.11 microns in diameter of such silica particles is less than 0.10 cc/g in one embodiment, less than or equal to 0.07 cc/g in another embodient, in still another embodiment less than or equal to 0.05 cc/g;
- the oral composition of any formulae 1.1 wherein such silica particles are non- spherical (for example plate-like or irregular or angular shape) and have one or more of the following properties: (a) BET surface area is less than 25 m 2 /g, in one embodiment, less than 10, in another embodiment, less than 3 m 2 /g, in still another embodiment, less than 1 .5 m 2 /g;
- the oil absorption capacity is less than 50 cc/100g, in another embodiment, between 30 and 50 cc/100g, in still another embodiment, between 30 and 45 cc/100g;
- the pack density is greater than 35 lb/ft 3 , in one embodiment, between 35 and 60 lb/ft 3 ;
- the Acorn surface area is less than 10 m 2 /g, in another embodiment, less than 5 m 2 /g, in another embodiment less than 2 m 2 /g, in still another embodiment, between 1 and 10 m 2 /g;
- the CTAB surface area of such silica particles is less than 15 m 2 /g, in one embodiment, less than 5 m 2 /g, in another embodiment, less than or equal to 2 m 2 /g;
- the total mercury intrusion volume of such silica particles is less than or equal to 0.8 cc/g, in one embodiment, between 0.5 and 0.8 cc/g;
- the intraparticle mercury intrusion pore volume of such silica particles of pores less than 0.11 microns in diameter of such silica particles is less than 0.10 cc/g in one embodient, less than or equal to 0.07 cc/g in another embodient, in still another embodient less than or equal to 0.05 cc/g;
- the 5% pH is between 4 and 11 , in one embodiment, between 6 and 10, in still another embodiment, between 4 and 10, in one embodiment between 5 and 8, in yet another embodiment, greater than or equal to 7, in still another embodiment, greater than or equal to 8;
- the moisture corrected water AbC value is less than 90 cc/1 OOg, in another embodiment, less than 80 cc/1 OOg, in still another embodiment, less than 65 cc/1 OOg;
- Einlehner abrasion value is less than or equal to 30 mg, in another embodiment, less than or equal to 25 mg, in still another embodiment, between 10 and 25 mg loss per 100,000 revolutions;
- BJH nitrogen adsorption pore volume of such silica particles is less than 0.02 cc/g, in one embodiment, less than 0.01 cc/g;
- the oral composition of any of the foregoing formulae wherein the composition is an oral care composition comprising one or more orally acceptable carrier, in one embodiment, the oral care composition is a dentifrice composition;
- RDA relative dentine abrasive
- the invention provides the following:
- a process for preparing amorphous non-porous silica particles comprising the steps of (i) spray drying an alkali metal silicate solution to form silicate powder; (ii) neutralizing the silicate powder of step (i) with an acid;
- step (i) comprises atomization of the sodium silicate using a spray nozzle or pneumatic nozzle (e.g., using pressure energy);
- step (i) comprises atomization using a rotary atomizer (e.g., centrifugal energy);
- step (i) and (ii) are carried out at atmospheric pressure;
- step (ii) comprises adding the resulting silicate powder of step (i) to the acid;
- the acid is a mineral acid, in one embodiment, selected from the group consisting of sulfuric acid, hydrochloric acid, nitric acid, phosphoric acid, carbonic acid or a combination thereof, in another embodiment, the acid is a sulfuric acid; in still another embodient, the acid is carbonic acid.
- Figure 1 shows the scanning electron microscopy (SEM) images of examples
- Figure 2 shows SEM Images of comparative examples 2 and 4 alongside inventive examples 1 B and 1 H.
- the current invention provides amorphous non-porous silica particles and methods of making the same and their use in dentrifice compositions.
- Amorphous, non-porous silica silicas of the invention are not produced by a polycondensation of a tetraalkoxysilane and are not produced by a precipitation process and are not produced by a heat treatment or calcination process.
- the inventors have discovered that the amorphous non-porous silicas can be made by controlling the alkali metal silicate solution, the spray drying parameters, and the neutralization step.
- Spherical means the silicas are rounded to well-rounded in nature (non-angular or non-plate-like), in a particular embodiment, at least 50% of the particles are rounded to well rounded.
- Non-spherical means angular or plate-like, in particular embodiment, at least 50% of the particles are angular or plate-like.
- the invention provides processes for preparing amorphous non-porous silicas comprising the steps of (i) spray drying a an alkali metal silicate solution to form silicate powder; (ii) neutralizing the silicate powder of step (i) with an acid.
- the spray drying step (i) comprises atomization of the sodium silicate using a spray nozzle or pneumatic nozzle (e.g., using pressure energy), e.g., with a diameter between 1 and 2 mm.
- the nozzle pressure is between 1 and 6 bar, in one embodiment between 1 and 3 bar.
- the temperature or rate of the neutralization can also affect the morphology of the silicas.
- the silicate precursor can be considered as insoluble under ambient conditions, but additional heat will partially solubilize the silicate. Soluble sodium siicate will produce precipitated silica decorating the monolithic spheres, resulting in an increase of BET surface area. This effect can be mitigated by either slowing the silicate addition to the acid solution, using dilute concentrations, or performing the addition under chilled conditions.
- the spray-dried alkali metal silicate is preferably neutralized by addition to a dilute acid solution.
- the concentration is less than 10 wt. %, in another embodiment, less than 6 wt. %, in still another embodiment at 5 wt. %.
- concentration of the acid solution it is possible to control the pH of the resulting silica without impacting the morphology. Morphology is preserved during neutralization; the silicate will convert to silica without a change in the particle size distribution.
- the process of the current invention therefore does not require heating the silicate nor the silica at elevated temperature as taught in the prior art (e.g., fusing or calcining at high temperature), thereby producing silicas without modifying its surface chemistry and other properties.
- the acid useful for the processes of the invention is a mineral acid including without limitation, selected from the group consisting of sulfuric acid, hydrochloric acid, nitric acid, phosphoric acid, carbonic acid or a combination thereof, in another embodiment, the acid is sulfuric acid, in still another embodiment, the acid is carbonic acid.
- the neutralization temperature of the alkali metal silicate is preferably at ambient temperature, therefore, in one embodiment, less than 30°C, in another embodiment, less than 25°C, in still another embodiment, less than 10°C, in yet another embodiment, less than 0°C.
- the processes of the invention can utilize any silicate source including without limitation, alkali metal silicate wherein in one embodiment, the alkali metal is selected form the group consisting of sodium, potassium, lithium or any mixture thereof.
- the alkali metal silicate is sodium silicate
- the sodium silicate is rice hull silicate derived from the extraction of silca using caustic from either rice hulls or rice hull ash.
- the molar ratio of the silica to alkali metal oxide for the alkali metal silicate is preferably 2.5-3.5, in a particular embodiment, selected from 2.5, 3, 3.3 and 3.5, in still another embodiment, between 2.5 and 3.3, in another embodiment, between 2.6 and 3.3.
- the silicate concentration is between 10 and 30 wt. %, in one embodiment, about 15 wt. %.
- the spray-dried silicate is preferably added under condition to mitigate unwanted rise in temperatures due to the neutralization reaction.
- the amorphous non-porous silica particles of the invention generally have a BET surface area is less than 25 m 2 /g, in one embodiment, less than 10 m 2 /g, in another embodiment, less than 3 m 2 /g; in another embodiment, less than 1.5 m2/g.
- Non-spherical non- porous silica particles of the invention generally have a nitrogen adsorption pore volume of less than 0.03cc/g, in one embodiment, less than 0.02 cc/g, in another embodiment, less than 0.01 cc/g, in still another embodiment, less than 0.005 cc/g, while spherical non-porous silica particles of the invention generally have a nitrogen adsorption pore volume of less than 0.002cc/g, in still another embodiment, less than 0.001 cc/g.
- BET surface areas and the nitrogen adsorption pore volume of the silica particles may be determined with any known methods in the art such as a
- the silicas of the invention also generally have a median particle size (d50) between 1 and 25 pm, in one embodiment, between 1 and 15 pm, in another embodiment, between 3 and 10 pm.
- the median particle size (d50) refers to the particle size for which 50% of the sample has a smaller size and 50% of the sample has a larger size.
- Particle size can be determined by laser diffraction method using, e.g., a Horiba LA 300 instrument.
- the spherical silicas of the invention generally have an oil absorption capacity below 40 cc/1 OOg, in another embodiment, between 15 and 30 cc/1 OOg while the non-spherical silicas of the invention have an oil absorption capacity of less than 50 cc/1 OOg, in another embodiment, between 30 and 50 cc/1 OOg, in still another embodiment, between 30 and 45 cc/1 OOg.
- Oil absorption values may be determined in accordance with the rub-out method described in ASTM D281 using linseed oil (cc oil absorbed per 100 g of the particles). Generally, a higher oil absorption level indicates a particle with a higher level of large pore porosity, also described as higher structure.
- the spherical silicas of the invention generally have a pack density of greater than 60 lb/ft 3 , in one embodiment, greater than or equal to 62 lb/ft 3 , in another embodiment, between 62 and 70 lb/ft 3 .
- the spherical silicas of the invention also generally have a pour density of less than 50 lb/ft 3 , in one embodiment, less than 45 lb/ft 3 , in another embodiment, between 40 and 45 lb/ft 3 .
- the non-spherical silicas of the invention have a pack density of greater than 35 lb/ft 3 , in one embodiment, between 35 and 60 lb/ft 3 and pour density of less than 40 lb/ft 3 , in one embodiment, between 20 and 30 lb/ft 3 .
- Pack density and pour density may be measured by placing a weighted sample into a 250 ml_ graduated cylinder with a flat rubber bottom. The initial volume is recorded and used to calculate the pour density by dividing it into the weight of sample used. The cylinder is then placed onto a tap density machine where it is rotated on a cam at a specific RPM.
- the cam is designed to raise and drop the cylinder a distance of 5.715 cm once per second, until the sample volume is constant, typically for 15 min. This final volume is recorded and used to calculate the packed density by dividing it into the weight of sample used.
- the silicas of the invention generally have a loss on ignition (LOI) of between 3 and 10 wt. %, in one embodiment, between 3 and 8 wt. %, in another embodiment, between 3 and 7 wt. %, in still another embodiment, between 6 and 10 wt. %, in another embodiment, between 6 and 8 wt. %, in yet another embodiment, between 5 and 8 wt. %.
- LOI loss on ignition
- LOI may be measured by first weighing approximately 2 g sample (to the nearest 0.0001 g) and transfering the sample into a preignited and cooled crucible. The sample must be dried 2 hours at 105°C, cooled to room temperature in a desiccator before weighing. The sample is then heated for 2hrs in a muffle furnace at a temperature of 1000C. After heating, the sample is removed and cooled in a dessicator. The sample weight is then measured. The % LOI is then calculated by dividing the weight loss by the sample weight before heating. [0030]
- the silicas of the invention generally have an Acorn surface area of less than
- Acorn surface area may be measured by Xigo Acorn Area Surface area Analyzer.
- the silicas of the invention generally have a CTAB surface area of less than 15 m 2 /g, in one embodiment, less than 12 m 2 /g, in another embodiment, less than 10 m 2 /g, in still another embodiment, between 1 and 15, in yet another embodiment, between 1 and 12 m 2 /g, in still another embodimnet, between 1 and 10 m 2 /g, in yet another embodiment, between 1 and 6 m 2 /g.
- CTAB surface areas of the silicas of the invention may be measured by absorption of CTAB (cetyltrimethylammonium bromide) on the silica surface, wherein the excess CTAB are separated by centrifugation and the quantity determined by titration with sodium lauryl sulfate using a surfactant electrode, for example, using the American Standard Test Method D6845-20.
- CTAB cetyltrimethylammonium bromide
- the spherical silicas of the invention generally have total mercury intrusion volume of less than 0.7 cc/g, in one embodiment, less than 0.6 cc/g, in another embodiment, less than or equal to 0.4 cc/g, in another embodiment, less than or equal to 0.3 cc/g, in still another embodiment, between 0.1 and 0.5 cc/g, in yet another embodimnet, between 0.3 and 0.4 cc/g.
- the non-spherical silicas of the invention generally have a total mercury intrusion volume is less than or equal to 0.8 cc/g, in one embodiment, between 0.5 and 0.8 cc/g .
- Both the spherical and non spherical silicas of the present invention have an intraparticle mercury intrusion pore volume of pores less than 0.11 microns in diameter of less than 0.10 cc/g in one embodient, less than or equal to 0.07 cc/g in another embodient, in still another embodient less than or equal to 0.05 cc/g.
- Mercury intruded volume or total pore volume (Hg) is measured by mercury porosimetry using a Micromeritics AutoPore IV 9520 (or Micromeritics AutoPore V 9620) apparatus.
- the pore diameters can be calculated by the Washburn equation employing a contact angle Theta (Q) equal to 130° and a surface tension gamma equal to 484 dynes/cm.
- Mercury is forced into the voids of the particles as a function of pressure and the volume of the mercury intruded per gram of sample is calculated at each pressure setting.
- Total pore volume expressed herein represents the cumulative volume of mercury intruded at pressures from vacuum to 60,000 psi. Increments in volume (cm3/g) at each pressure setting are plotted against the pore radius or diameter corresponding to the pressure setting increments.
- sample size is adjusted to achieve a stem volume of 25-90% in a powder penetrometer with a 5 ml_ bulb and a stem volume of about 1.1 ml_. Samples are evacuated to a pressure of 50 pm of Hg and held for 5 minutes. Mercury fills the pores from 4.0 to 60,000 psi with a 10 second equilibrium time at each data collection point.
- the total pore volume as described above captures the volumes from intraparticle porosity resulting from the pore structure within the individual particles, as well as, the interparticle porosity formed from the interstitial spacing of the packed particles under pressure.
- the pore volume of pores less than ⁇ 0.11 pm can be used.
- the silicas of the invention generally have 5% pH of between 4 and 11 , in one embodiment, between 4 and 10, in still another embodiment, between 6 and 10, in one embodiment between 5 and 8, in yet another embodiment, greater than or equal to 7, in still another embodiment, greater than or equal to 8.
- 5% pH may be measured by determining the pH of an aqueous system containing 5 wt. % solids in deionized water using a pH meter.
- the spherical silicas of the invention generally have a water corrected AbC value of less than 45 cc/100g, in another embodiment, less than 45 cc/100g, in another embodiment, less than 40 cc/100g, in still another embodiment, between 25cc /100g and 42 cc/100g, in yet another embodiment, between 30 cc/100g and 40 cc/100g.
- the non-spherical silicas of the invention generally have a water corrected AbC value of less than 90 cc/100g, in another embodiment less than 80 cc/100g, in still another embodiment, less than 65 cc/100g.
- AbC values may be determined with an Absorptometer “C” torque rheometer from C.W. Brabender Instruments, Inc.
- the spherical silicas of the invention generally have Einlehner abrasion value of less than or equal to 10mg, in another embodiment, less than or equal to 7 mg, in still another embodment, less than 6 mg, in yet another embodiment, between 1 and 9 mg loss per 100,000 revolutions.
- the non-spherical silicas of the invention generally have Einlehner abrasion value of less than or equal to 30 mg, in another embodiment, less than or equal to 25 mg, in still another embodiment, between 10 and 25 mg loss per 100,000 revolutions.
- the Brass Einlehner Abrasion (BEA) test used to measure the hardness of the silica products of the invention is described in detail in U.S. Pat. No. 6,616,916 to Karpe et al., which is incorporated herein by reference for its teaching of the BE Abrasion test.
- the test involves an Einlehner AT-1000 Abrader used as follows: (1) a Fourdrinier brass wire screen that has been previously cleaned and dried is then weighed and exposed to the action of a 10% aqueous silica suspension for a fixed length of time, specifically 10Og of sample in 900g of deionized water ; (2) the amount of abrasion is then determined as milligrams brass lost from the Fourdrinier wire screen per 100,000 revolutions. The result, measured in units of mg loss, can be characterized as the 10% brass Einlehner (BE) abrasion value.
- BET surface area is less than 25 m 2 /g, in one embodiment, less than 10, in another embodiment, less than 3 m 2 /g, in still another embodiment, less than 1 .5 m 2 /g;
- a median particle is between 1 and 25 pm, in one embodiment, between 1 and 15 pm, in another embodiment, between 3 and 10 pm;
- the oil absorption capacity is less than 50 cc/100g, in another embodiment, between 30 and 50 cc/100g, in still another embodiment, between 30 and 45 cc/100g;
- the pack density is greater than 35 lb/ft 3 , in one embodiment, between 35 and
- pour density of such silica particles is less than 40 lb/ft 3 , in one embodiment, between 20 and 30 lb/ft 3 ;
- the loss on ignition (LOI) is between 3 and 10 wt. %, in one embodiment, between 3 and 8 wt. %, in another embodiment, between 3 and 8 wt. %, in another embodiment, between 3 and 7 wt. %, in still another, between 6 and 10 wt. %, in another embodiment, between 6 and 8 wt. %, in yet another embodiment, between 5 and 8 wt. %;
- the Acorn surface area is less than 10 m 2 /g, in another embodiment, less than 5 m 2 /g, in another embodiment less than 2 m 2 /g, in still another embodiment, between 1 and 10 m 2 /g;
- the CTAB surface area of such silica particles is less than 15 m 2 /g, in one embodiment, less than 5 m 2 /g, in another embodiment, less than or equal to 2 m 2 /g;
- the total mercury intrusion volume is less than or equal to 0.8 cc/g, in one embodiment, between 0.5 and 0.8 cc/g;
- the intraparticle mercury intrusion pore volume of pores less than 0.11 microns in diameter of such silica particles is less than 0.10 cc/g in one embodient, less than or equal to 0.07 cc/g in another embodient, in still another embodient less than or equal to 0.05 cc/g;
- the 5% pH is between 4 and 11 , in one embodiment, between 4 and 10, in still another embodiment, between 6 and 10, in one embodiment between 5 and 8, in yet another embodiment, greater than or equal to 7, in still another embodiment, greater than or equal to 8;
- the moisture corrected water AbC value is less than 90 cc/1 OOg, in another embodiment, less than 80 cc/1 OOg, in still another embodiment, less than 65 cc/1 OOg;
- Einlehner abrasion value is less than or equal to 30 mg, in another embodiment, less than or equal to 25 mg, in still another embodiment, between 10 and 25 mg loss per 100,000 revolutions; and/or
- the silicas of the current invention can be used in oral care applications, such as in a dentifrice composition wherein such composition comprises one or more orally acceptable carrier.
- the inventors have surprisingly found that the non- porous amorphous silica particles give unexpectantly high cleaning and low abrasion for a silica with relatively high density.
- silica provides cleaning as measured by PCR (Pelicle Cleaning Ratio) .
- PCR Pelicle Cleaning Ratio
- high PCR is desired to provide high cleaning toothpaste, it must be tempered with low RDA (Relative Dentin Abrasion) and low REA (Relative Enamel Abrasion) to provide a suitable toothpaste that does not damage the tooth dentin or tooth enamel.
- the dentifrice composition can contain any suitable amount of the silica particles, such as from about 0.5 to about 50 wt. %, from about 1 to about 50 wt. % in a particular aspect, from about 1 to about 35 wt.
- amorphous, non-porous silica particles of the invention are based on the total weight of the oral (e.g., dentifrice) composition.
- the dentifrice compositions disclosed herein can be evaluated using a variety of measurements.
- the cleaning property of dentifrice compositions is typically expressed in terms of Pellicle Cleaning Ratio (“PCR”) value.
- PCR Pellicle Cleaning Ratio
- the PCR test measures the ability of a dentifrice composition to remove pellicle film from a tooth under fixed brushing conditions.
- the PCR may be determined by any method known in the art, one of which is described in “In Vitro Removal of Stain With Dentifrice” G. K. Stookey, et al., J. Dental Res., 61 , 1236-9, 1982, which is incorporated herein by reference for its teaching of PCR.
- the oral care (e.g., dentifrice) composition of the invention have a Cleaning Ratio (PCR) is greater than 70, in one embodiment, greater than 85, in another embodiment between 85 and 110.
- the oral care (e.g., dentifrice) composition of the invention have a relative dentine abrasive (RDA) value of less than or equal to 180, in another embodiment, less than 150, in still another embodiment, between 50 and 150.
- RDA values of dentifrices containing the silica particles used in this invention may be determined according to the method set forth by Hefferen, Journal of Dental Res., July-August 1976, 55 (4), pp. 563-573, and described in Wason U.S. Pat. Nos. 4,340,583, 4,420,312 and 4,421 ,527, which are each incorporated herein by reference for their teaching of RDA measurements.
- the oral care (e.g., dentifrice) composition of the invention have a relative enamel abrasive (REA) value of less than or equal to 15 in one embodient, in another embodient less than 10, in yet another embodient less than 5.
- REA values of dentifrices containing the silica particles used in this invention may be determined according to the method known in the art, onw of which is set forth by Hefferen, Journal of Dental Res., July- August 1976, 55 (4), pp. 563-573, and described in Wason U.S. Pat. Nos. 4,340,583, 4,420,312 and 4,421 ,527, which are each incorporated herein by reference for their teaching of REA measurements.
- the oral care (e.g., dentifrice) composition of the invention have a fluoride compatibility of greater than or equal to 80%, in one embodiment, greater than or equal to 90%, in another embodiment, greater than or equal to 95%; and/or a stannous ion compatibility of greater than or equal to 50%, in one embodiment, greater than or equal to 60%, in another embodiment, greater than or equal to 70%, in still another embodiment, greater than or equal to 80%, in still another embodiment, greater than or equal to 90%, in yet another embodiment, greater than or equal to 95%.
- Fluoride compatibility may be determined by methods known in the art.
- the dentifrice composition can be in any suitable form, such as a liquid, powder, gel or paste.
- the dentifrice composition comprises one or more orally acceptable carrier suitable for use in an oral cavity, which may include other ingredients or additives, non-limiting examples of which can include a humectant, a solvent, a binder, a therapeutic agent, a chelating agent, a thickener other than the silica particles, a surfactant, an abrasive other than the silica particles of the invention, a sweetening agent, a colorant, a flavoring agent, a preservative, and the like, as well as any combination thereof.
- Humectants serve to add body or “mouth texture” to a dentifrice as well as preventing the dentifrice from drying out.
- Suitable humectants include polyethylene glycol (at a variety of different molecular weights), propylene glycol, glycerin (glycerol), erythritol, xylitol, sorbitol, mannitol, lactitol, and hydrogenated starch hydrolyzates, and mixtures thereof.
- humectants are present in an amount from about 20 to about 50 wt. %, based on the weight of the dentifrice composition.
- a solvent can be present in the dentifrice composition, at any suitable loading, and usually the solvent comprises water.
- water is preferably deionized and free of impurities, can be present in the dentifrice at loadings from 5 to about 70 wt. %, and from about 5 to about 35 wt. % in another aspect, based on the weight of dentifrice composition.
- Therapeutic agents also can be used in the compositions of this invention to provide for the prevention and treatment of dental caries, periodontal disease, and temperature sensitivity, for example.
- Suitable therapeutic agents can include, but are not limited to, fluoride sources, such as sodium fluoride, sodium monofluorophosphate, potassium monofluorophosphate, stannous fluoride, potassium fluoride, sodium fluorosilicate, ammonium fluorosilicate and the like; condensed phosphates such as tetrasodium pyrophosphate, tetrapotassium pyrophosphate, disodium dihydrogen pyrophosphate, trisodium monohydrogen pyrophosphate; tripolyphosphates, hexametaphosphates, trimetaphosphates and pyrophosphates; antimicrobial agents such as triclosan, bisguanides, such as alexidine, chlorhexidine and chlorhexidine gluconate; enzymes such as papain, bromelain,
- Thickening agents are useful in the dentifrice compositions to provide a gelatinous structure that stabilizes the toothpaste against phase separation.
- suitable thickening agents include silica thickener; starch; glycerite of starch; gums such as gum karaya (sterculia gum), gum tragacanth, gum arabic, gum ghatti, gum acacia, xanthan gum, guar gum and cellulose gum; magnesium aluminum silicate (Veegum); carrageenan; sodium alginate; agar-agar; pectin; gelatin; cellulose compounds such as cellulose, carboxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, hydroxymethyl cellulose, hydroxymethyl carboxypropyl cellulose, methyl cellulose, ethyl cellulose, and sulfated cellulose; natural and synthetic clays such as hectorite clays; and mixtures thereof.
- Typical levels of thickening agents or binders are up to about 15 wt. % of a toothpaste or dentifrice composition.
- Useful silica thickeners for utilization within a toothpaste composition include, as a non-limiting example, an amorphous precipitated silica such as ZEODENT 165 silica.
- Other non-limiting silica thickeners include ZEODENT 153, 163 and/or 167 and ZEOFREE, 177, and/or 265 silica products, all available from Evonik Corporation.
- Surfactants can be used in the dentifrice compositions of the invention to make the compositions more cosmetically acceptable.
- the surfactant is preferably a detersive material which imparts to the composition detersive and foaming properties.
- Suitable surfactants are safe and effective amounts of anionic, cationic, nonionic, zwitterionic, amphoteric and betaine surfactants such as sodium lauryl sulfate, sodium dodecyl benzene sulfonate, alkali metal or ammonium salts of lauroyl sarcosinate, myristoyl sarcosinate, palmitoyl sarcosinate, stearoyl sarcosinate and oleoyl sarcosinate, polyoxyethylene sorbitan monostearate, isostearate and laurate, sodium lauryl sulfoacetate, N-lauroyl sarcosine, the sodium, potassium, and ethanolamine salts of N-lauroyl, N-myristoyl, or N-palmitoyl sarcosine, poly
- Sodium lauryl sulfate is a preferred surfactant.
- the surfactant is typically present in the compositions of the present invention in an amount from about 0.1 to about 15 wt. %, from about 0.3 to about 5 wt. % in a particular aspect, and from about 0.3 to about 2.5 wt. % in a more particular aspect.
- the disclosed silica particles of the invention can be utilized alone as the abrasive in the dentifrice composition, or as an additive or co-abrasive with other abrasive materials discussed herein or known in the art.
- any number of other conventional types of abrasive additives can be present within the dentifrice compositions of the invention.
- abrasive particles include, for example, precipitated calcium carbonate (PCC), ground calcium carbonate (GCC), chalk, bentonite, dicalcium phosphate or its dihydrate forms, silica gel (by itself, and of any structure), precipitated silica, amorphous precipitated silica (by itself, and of any structure as well), perlite, titanium dioxide, dicalcium phosphate, calcium pyrophosphate, alumina, hydrated alumina, calcined alumina, aluminum silicate, insoluble sodium metaphosphate, insoluble potassium metaphosphate, insoluble magnesium carbonate, zirconium silicate, particulate thermosetting resins and other suitable abrasive materials.
- PCC precipitated calcium carbonate
- GCC ground calcium carbonate
- chalk chalk
- bentonite dicalcium phosphate or its dihydrate forms
- silica gel by itself, and of any structure
- precipitated silica precipitated silica
- amorphous precipitated silica by itself, and of any structure as
- Sweeteners can be added to the dentifrice composition (e.g., toothpaste) to impart a pleasing taste to the product. Suitable sweeteners include saccharin (as sodium, potassium or calcium saccharin), cyclamate (as a sodium, potassium or calcium salt), acesulfame- K, thaumatin, neohesperidin dihydrochalcone, ammoniated glycyrrhizin, dextrose, levulose, sucrose, mannose, and glucose.
- Colorants can be added to improve the aesthetic appearance of the product.
- Suitable colorants include without limitation those colorants approved by appropriate regulatory bodies such as the FDA and those listed in the European Food and Pharmaceutical Directives and include pigments, such as T1O2, and colors such as FD&C and D&C dyes.
- Flavoring agents also can be added to dentifrice compositions. Suitable flavoring agents include, but are not limited to, oil of wintergreen, oil of peppermint, oil of spearmint, oil of sassafras, and oil of clove, cinnamon, anethole, menthol, thymol, eugenol, eucalyptol, lemon, orange and other such flavor compounds to add fruit notes, spice notes, etc. These flavoring agents generally comprise mixtures of aldehydes, ketones, esters, phenols, acids, and aliphatic, aromatic and other alcohols.
- Preservatives also can be added to the compositions of the present invention to prevent bacterial growth.
- Suitable preservatives approved for use in oral compositions such as methylparaben, propylparaben and sodium benzoate can be added in safe and effective amounts.
- ingredients can be used in the dentifrice composition, such as desensitizing agents, healing agents, other caries preventative agents, chelating/sequestering agents, vitamins, amino acids, proteins, other anti-plaque/anti-calculus agents, opacifiers, antibiotics, anti-enzymes, enzymes, pH control agents, oxidizing agents, antioxidants, and the like.
- an apparatus comprising A or B may refer to an apparatus including A where B is not present, an apparatus including B where A is not present, or an apparatus where both A and B are present.
- the phrases “at least one of A, B, . . . and N” or “at least one of A, B, . . . N, or combinations thereof are defined in the broadest sense to mean one or more elements selected from the group comprising A, B, . . . and N, that is to say, any combination of one or more of the elements A, B, . . . or N including any one element alone or in combination with one or more of the other elements which may also include, in combination, additional elements not listed.
- Exemplary silicas of the current invention are prepared as described in the Examples below. Using the analytical methods described below, the silicas of the invention are characterized and the results are providedherein.
- Examples 1A-1E Preparation of Silicates
- Five dense spherical silicate samples are prepared by spray drying 3.3MR (molar ratio) and 2.65MR sodium silicate using the GEA Mobile Minor® spray dryer equipped with a spray nozzle for atomization.
- the Silicate concentration is fixed at 15 wt. %,
- the nozzle diameters used is 1 .0mm and 2.0mm with atomization pressures of 1 bar and 3bar.
- Examples 1 F Preparation of Silicates. Hollow silicate shells are prepared by spray drying 10wt% 3.3MR sodium silicate using rotary atomization.
- Examples 1A-11 Preparation of Silica Particles. 300g of each silicate of Examples 1A-1 F are neutralized in 1.8L of 5.7 wt. % sulfuric acid. Specifically, the solid silicate powder is added slowly over the course of 5min under stirring at 350rpm. After 20min of stirring, the resulting slurry is filtered and washed with 8.0L of water before subsequent drying at 110°C for approximately 18hrs. After neutralization and drying, the silica shells from example 1 F are then milled further for 30sec using a lab scale mechanical mill (Columbia International CIT-FW-200) to form angular/platelets of different particle size, resulting in Example 1G.
- a lab scale mechanical mill Coldscale mechanical mill
- Example 1 F The neutralization performed in example 1 F is repeated to maintain a lower silicate moisture and reaction temperature to provide a lower BET and avoid over acidification.
- the resulting material is then filtered, dried and mechanically milled following the same procedures as above to provide example 11. These same shells are also further reduced in size using an air jet mill to provide Example 1 H.
- Example 1J Silicas of this example is carried out as in Example 1 B except that the final pH of the material was signifigantly more alkaline at a pH of 10.18.
- Example 1 The physical properties of the silicas of Examples 1 A-1 J are measured using the methods below and the results are provided in Table 1 below. Also provided in Table 1 below are properties of Examples 2 and 3 which are conventional silica materials commercially available from Evonik Corporation, which have irregular and non-spherical particle morphology, and Example 4, which are spherical silicas made from a continuous loop reactor process (see e.g., U.S. Patent
- BET Surface Area The BET surface areas of silicas of the invention are determined with a Micromeritics TriStar 3020 instrument by the BET nitrogen adsorption method of Brunaur et al., J. Am. Chem. Soc., 60, 309 (1938), which is known in the field of particulate materials, such as silica and silicate materials.
- Particle Size Measurement of the particle size of the silicas of the invention is conducted on HORIBA Laser Scarttering Dry Particle Size Distribution Analyzer LA-930 through the angle of scattered laser light.
- Oil absorption values are determined in accordance with the rub-out method described in ASTM D281 using linseed oil (cc oil absorbed per 100 g of the particles). Generally, a higher oil absorption level indicates a higher structure particle, while a lower value typically indicates a lower structure particle.
- Pack Density and Pour Density - Pack density and pour density are measured by placing 20. Og of the sample into a 250 mL graduated cylinder with a flat rubber bottom. The initial volume is recorded and used to calculate the pour density by dividing it into the weight of sample used. The cylinder is then placed onto a tap density machine where it is rotated on a cam at a specific RPM. The cam is designed to raise and drop the cylinder a distance of 5.715 cm once per second, until the sample volume is constant, typically for 15 min. This final volume is recorded and used to calculate the packed density by dividing it into the weight of sample used.
- Loss on ignition - LOI are measured by first weighing approximately 2 g sample (to the nearest 0.0001 g) and transfering the sample into a preignited and cooled crucible. The sample must be dried 2 hours at 105°C, cooled to room temperature in a desiccator before weighing. The sample is then heated for 2hrs in a muffle furnace at a temperature of 1000C. After heating, the sample is removed and cooled in a dessicator. The sample weight is then measured. The %LOI is then calculated by dividing the weight loss by the sample weight before heating. [0073] Acorn surface area - Acorn surface area was measured using a Xigo Acorn
- CTAB Surface Area The CTAB surface areas disclosed herein are determined by absorption of CTAB (cetyltrimethylammonium bromide) on the silica surface, the excess separated by centrifugation and the quantity determined by titration with sodium lauryl sulfate using a surfactant electrode. Specifically, about 0.5 grams of the silica particles are placed in a 250-mL beaker with 100 mL CTAB solution (5.5 g/L), mixed on an electric stir plate for 1 hour, then centrifuged for 30 min at 10,000 RPM. One mL of 10% Triton X-100 is added to 5 mL of the clear supernatant in a 100-mL beaker. The pH is adjusted to 3-3.5 with 0.1 N HCI and the specimen is titrated with 0.01 M sodium lauryl sulfate using a surfactant electrode (Brinkmann SUR1501-DL) to determine the endpoint.
- CTAB cetyltrimethylammonium bromide
- Water Corrected AbC Value Water absorption values are determined with an Absorptometer “C” torque rheometer from C.W. Brabender Instruments, Inc. Approximately 1/3 of a cup of the silica sample is transferred to the mixing chamber of the Absorptometer and mixed at 150 RPM. Water then is added at a rate of 6 mL/min, and the torque required to mix the powder is recorded. As water is absorbed by the powder, the torque will reach a maximum as the powder transforms from free-flowing to a paste. The total volume of water added when the maximum torque is reached is then standardized to the quantity of water that can be absorbed by 100 g of powder. Since the powder is used on an as received basis (not previously dried), the free moisture value of the powder is used to calculate a “moisture corrected water AbC value” by the following equation. waterabsorbed(cc) + %moisture
- Mercury intrusion volume - Mercury intruded volume or total pore volume (Hg) is measured by mercury porosimetry using a Micromeritics AutoPore IV 9520 (or,
- the pore diameters can be calculated by the Washburn equation employing a contact angle Theta (Q) equal to 130° and a surface tension gamma equal to 484 dynes/cm.
- Mercury is forced into the voids of the particles as a function of pressure and the volume of the mercury intruded per gram of sample is calculated at each pressure setting.
- Total pore volume expressed herein represents the cumulative volume of mercury intruded at pressures from vacuum to 60,000 psi. Increments in volume (cm3/g) at each pressure setting are plotted against the pore radius or diameter corresponding to the pressure setting increments.
- sample size is adjusted to achieve a stem volume of 25-90% in a powder penetrometer with a 5 ml_ bulb and a stem volume of about 1.1 ml_. Samples are evacuated to a pressure of 50 pm of Hg and held for 5 minutes. Mercury fills the pores from 4.0 to 60,000 psi with a 10 second equilibrium time at each data collection point).
- the total pore volume as described above captures the volumes from intraparticle porosity resulting from the pore structure within the individual particles, as well as, the interparticle porosity formed from the interstitial spacing of the packed particles under pressure.
- the pore volume of pores ⁇ 0.11 pm can be used.
- Einlehner AT-1000 Abrader is used as follows: (1) a Fourdrinier brass wire screen that has been previosly clean and dried is then weighed and exposed to the action of a 10% aqueous silica suspension for a fixed length of time, specifically 100g of sample in 900g of deionized water; (2) the amount of abrasion is then determined as milligrams brass lost from the Fourdrinier wire screen per 100,000 revolutions. The result, measured in units of mg loss, can be characterized as the 10% brass Einlehner (BE) abrasion value.
- BE 10% brass Einlehner
- the amorphous silica particles produced by the process of the invention utilizing the spray nozzle have a very low BET surface area, low medican particle size, low oil absorption capacity as well as high pack density (great than 60 lb/ft 3 ) relative to silica particles made from the process using the rotary atomizer. It can also be seen that the amorphous silica particles produced via the process of the invention utilizing the rotary atomizer can also have a very low BET surface area, low oil absorption capacity and relatively high pack densities (greater than 40 lb/ft 3 if milled to an appropriately small size) as seen in Example 1 H and 11. This indicates that similar to the dense spheres, the resulting particles from this process can be non-porous.
- Hollow silicate shells are prepared from 35 wt. % 2.5MR sodium silicate using rotary atomization. 100g of silicate is then neutralized in 600ml_ of 5.7wt% sulfuric acid under different temperatures. Specifically, the solid silicate powder is added slowly over the course of 5min under stirring at 350rpm at acid temperatures of room temperature, 30°C, and 40°C. After 20min of stirring, the resulting slurry is filtered and washed with 3.0L of water before subsequent drying at 110°C for approximately 18hrs. After drying, the materials are only lightly milled in a Cuisinart mixer to break up large agglomerates. The results of Examples 5A-C are shown in Table 2 below:
- the Stannous compatibility of the above samples are determined as follows. A stock solution containing 431.11 g of 70% sorbitol, 63.62 g of de-oxygenated deionized water, 2.27 g of stannous chloride dihydrate, and 3 g of sodium gluconcate is prepared. 34 g of the stock solution is added to a 50 ml_ centrifuge tube containing 6 g of the silica sample to be tested. The centrifuge tube is placed on a rotating wheel at 5 RPM and is aged for 1 week at 40 °C.
- the centrifuge tube is centrifuged at 12,000 RPM for 10 minutes, and the stannous concentration in the supernatant is determined by ICP-OES (inductively coupled plasma optical emission spectrometer).
- the stannous compatibility is determined by expressing the stannous concentration of the sample as a percentage of the stannous concentration of a solution prepared by the same procedure, but with no silica added.
- Fluoride Compatibility (%).
- the Fluoride compatibility of the above samples are determined as follows. A fluoride stock solution containing 2.21 g of sodium fluoride, 4.15g of citric acid, 23.05g of sodium citrate dihydrate, and diluted to total volume of lOOOmL using deionized water is prepared. A 40 wt% silica test slurry is created using the material of interest and the fluoride stock solution. 11.25 g of the stock solution is added to a 50 ml_ centrifuge tube containing 7.5 g of the silica sample to be tested. The centrifuge tube is placed on a rotating wheel at 5 RPM (or equivalent means of agitation) and is aged for 1 hour at 60 °C.
- the centrifuge tube is centrifuged at 12,000 RPM for 10 minutes (or until the supernatant is clear).
- the Fluoride concentration in the supernatant is determined by first taking an aliquot, transferring it to a plastic vial containing a magnetic stirbar and adding an equal volume of TISAB II buffer. The concentration is then measured using a pre-calibrated fluoride specific ion electrode (orion model #96-09BN or equivalent).
- the Fluoride compatibility is determined by expressing the Fluoride concentration of the sample as a percentage of the Fluoride concentration of a stock solution. Table 3
- the dentrifice compositions of Examples DC1-DC14 are prepared by using a IKA overhead stirrer to first mix a gum dispersion containing polyethylene glycol, glycerin, and sorbitol with an aqueus solution containing fluoride, sweetener, preservative, a whitening agent, and color.
- Various amounts of silicas of Examples 1 B, 1 D, 1 B’, 1 H, 11 and 1 J are then added to this pre-mix as shown in Table 4 and the resulting mixture is placed in a Ross Dual Planetary Mixture and mixed for 15 min to 25 min under strong vacuum. Flavor and surfactant are added and the material is mixed for another 5 min under low vacuum.
- the specific mass of each ingredient is reported in Table 4. ble 4
- RDA Relative Dentin Abrasion
- PCR Pellicle Cleaning Ratio
- the cleaning property of dentifrice compositions is typically expressed in terms of Pellicle Cleaning Ratio ("PCR") value.
- PCR Pellicle Cleaning Ratio
- the PCR test measures the ability of a dentifrice composition to remove pellicle film from a tooth under fixed brushing conditions. The PCR test is described in "In Vitro Removal of Stain with Dentifrice" G. K. Stookey, et al., J. Dental Res., 61 , 12-36-9, 1982. Both PCR and RDA results vary depending upon the nature and concentration of the components of the dentifrice composition. PCR and RDA values are unit-less. Both PCR and RDA values are obtaing and are reported below in Table 5. Table 5
- Table 5 shows that silicas of Examples DC 3-6 have improved PCR relative to control silicas of Example 3 as well as comparable PCR and improved RDA relative to control silca of Example 2. The same holds true for the angular/platelet materials Examples DC8-11 , but it was observed that reducing the particle size is critical to minimizing the RDA when utilizing this morphology. The reduced RDA values achieved relative to other precipitated silica materials with similar particle densities and sizes was unexpected.
- REA Relative Enamel Abrasivity
- the silica particles of the invention possess a lower degree of polymerization and particle hardness as a result of not being heat treated or fused, which helps them to maintain a lower abrasivity toward other hard surfaces such as metals and even enamel.
- REA test of commercially available fused silica particles of similar size and shape as Example 1 B and 1 H along with traditional high cleaning precipitated silica are tested for their REA values. As can be seen, the higher hardness resulting from the heat treatment process of the fused silica particles results in undesirably high brass einlehner abrasion values and correspondingly high REA values compared to the traditional high cleaning precipitated silica.
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Abstract
Priority Applications (7)
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EP22705035.8A EP4291153A1 (fr) | 2021-02-11 | 2022-02-03 | Silices amorphes non poreuses |
US18/264,963 US20240051835A1 (en) | 2021-02-11 | 2022-02-03 | Amorphous non-porous silicas |
KR1020237030328A KR20230138530A (ko) | 2021-02-11 | 2022-02-03 | 무정형 비-다공성 실리카 |
BR112023016180A BR112023016180A2 (pt) | 2021-02-11 | 2022-02-03 | Sílicas amorfas não porosas |
CN202280014540.8A CN116887802A (zh) | 2021-02-11 | 2022-02-03 | 无定形非多孔二氧化硅 |
MX2023009377A MX2023009377A (es) | 2021-02-11 | 2022-02-03 | Silices amorfas, no porosas. |
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US63/148,172 | 2021-02-11 |
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WO2022171507A1 true WO2022171507A1 (fr) | 2022-08-18 |
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PCT/EP2022/052516 WO2022171507A1 (fr) | 2021-02-11 | 2022-02-03 | Silices amorphes non poreuses |
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US (1) | US20240051835A1 (fr) |
EP (1) | EP4291153A1 (fr) |
JP (1) | JP2024508721A (fr) |
KR (1) | KR20230138530A (fr) |
CN (1) | CN116887802A (fr) |
BR (1) | BR112023016180A2 (fr) |
MX (1) | MX2023009377A (fr) |
TW (1) | TW202302065A (fr) |
WO (1) | WO2022171507A1 (fr) |
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US3070426A (en) * | 1959-08-11 | 1962-12-25 | Grace W R & Co | Process for preparing low surface area silica |
US3939262A (en) | 1974-01-21 | 1976-02-17 | Monsanto Company | Dentifrices |
US4007260A (en) | 1974-01-21 | 1977-02-08 | Monsanto Company | Dentifrices |
US4312845A (en) | 1979-09-10 | 1982-01-26 | J. M. Huber Corporation | Method of producing amorphous silica of controlled oil absorption |
US4340583A (en) | 1979-05-23 | 1982-07-20 | J. M. Huber Corporation | High fluoride compatibility dentifrice abrasives and compositions |
US4420312A (en) | 1979-05-23 | 1983-12-13 | J. M. Huber Corporation | Method for production of high fluoride compatibility dentifrice abrasives and compositions |
US4421527A (en) | 1977-12-20 | 1983-12-20 | J. M. Huber Corporation | High fluoride compatibility dentifrice abrasives and compositions |
JPS6054914A (ja) * | 1983-09-05 | 1985-03-29 | Miyoshi Kasei:Kk | 微細球状シリカゲルの製造方法 |
EP0216278A2 (fr) | 1985-09-25 | 1987-04-01 | MERCK PATENT GmbH | Particules de silice sphériques |
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US8609068B2 (en) | 2010-02-24 | 2013-12-17 | J.M. Huber Corporation | Continuous silica production process and silica product prepared from same |
WO2014071284A2 (fr) | 2012-11-05 | 2014-05-08 | The Procter & Gamble Company | Silice précipitée traitée thermiquement |
US8734764B2 (en) | 2009-10-14 | 2014-05-27 | Sunstar Inc. | Composition for oral cavity |
JP5762120B2 (ja) | 2010-05-11 | 2015-08-12 | 日揮触媒化成株式会社 | シリカ系粒子の製造方法 |
WO2019068596A1 (fr) | 2017-10-02 | 2019-04-11 | Glaxosmithkline Consumer Healthcare (Uk) Ip Limited | Nouvelle composition |
US10328002B2 (en) | 2016-12-19 | 2019-06-25 | The Procter & Gamble Company | Dentifice compositions containing stannous compatible silica particles |
WO2019241323A1 (fr) | 2018-06-12 | 2019-12-19 | The Procter & Gamble Company | Formulations de dentifrice comprenant des particules sphériques de silice stanno-compatibles pour une rda réduite |
-
2022
- 2022-02-03 CN CN202280014540.8A patent/CN116887802A/zh active Pending
- 2022-02-03 JP JP2023548720A patent/JP2024508721A/ja active Pending
- 2022-02-03 EP EP22705035.8A patent/EP4291153A1/fr active Pending
- 2022-02-03 KR KR1020237030328A patent/KR20230138530A/ko unknown
- 2022-02-03 US US18/264,963 patent/US20240051835A1/en active Pending
- 2022-02-03 WO PCT/EP2022/052516 patent/WO2022171507A1/fr active Application Filing
- 2022-02-03 MX MX2023009377A patent/MX2023009377A/es unknown
- 2022-02-03 BR BR112023016180A patent/BR112023016180A2/pt unknown
- 2022-02-08 TW TW111104511A patent/TW202302065A/zh unknown
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US3070426A (en) * | 1959-08-11 | 1962-12-25 | Grace W R & Co | Process for preparing low surface area silica |
US3939262A (en) | 1974-01-21 | 1976-02-17 | Monsanto Company | Dentifrices |
US4007260A (en) | 1974-01-21 | 1977-02-08 | Monsanto Company | Dentifrices |
US4421527A (en) | 1977-12-20 | 1983-12-20 | J. M. Huber Corporation | High fluoride compatibility dentifrice abrasives and compositions |
US4340583A (en) | 1979-05-23 | 1982-07-20 | J. M. Huber Corporation | High fluoride compatibility dentifrice abrasives and compositions |
US4420312A (en) | 1979-05-23 | 1983-12-13 | J. M. Huber Corporation | Method for production of high fluoride compatibility dentifrice abrasives and compositions |
US4312845A (en) | 1979-09-10 | 1982-01-26 | J. M. Huber Corporation | Method of producing amorphous silica of controlled oil absorption |
JPS6054914A (ja) * | 1983-09-05 | 1985-03-29 | Miyoshi Kasei:Kk | 微細球状シリカゲルの製造方法 |
EP0216278A2 (fr) | 1985-09-25 | 1987-04-01 | MERCK PATENT GmbH | Particules de silice sphériques |
US6616916B1 (en) | 2001-12-10 | 2003-09-09 | J. M. Huber Corporation | Transparent dentifrices |
US8734764B2 (en) | 2009-10-14 | 2014-05-27 | Sunstar Inc. | Composition for oral cavity |
US8609068B2 (en) | 2010-02-24 | 2013-12-17 | J.M. Huber Corporation | Continuous silica production process and silica product prepared from same |
US8945517B2 (en) | 2010-02-24 | 2015-02-03 | J. M. Huber Corporation | Continuous silica production process and silica product prepared from same |
JP5762120B2 (ja) | 2010-05-11 | 2015-08-12 | 日揮触媒化成株式会社 | シリカ系粒子の製造方法 |
WO2014071284A2 (fr) | 2012-11-05 | 2014-05-08 | The Procter & Gamble Company | Silice précipitée traitée thermiquement |
US10328002B2 (en) | 2016-12-19 | 2019-06-25 | The Procter & Gamble Company | Dentifice compositions containing stannous compatible silica particles |
WO2019068596A1 (fr) | 2017-10-02 | 2019-04-11 | Glaxosmithkline Consumer Healthcare (Uk) Ip Limited | Nouvelle composition |
WO2019241323A1 (fr) | 2018-06-12 | 2019-12-19 | The Procter & Gamble Company | Formulations de dentifrice comprenant des particules sphériques de silice stanno-compatibles pour une rda réduite |
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PURE APPL. CHEM., vol. 87, no. 9-10, 2015, pages 1051 - 1069 |
Also Published As
Publication number | Publication date |
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BR112023016180A2 (pt) | 2023-12-12 |
KR20230138530A (ko) | 2023-10-05 |
JP2024508721A (ja) | 2024-02-28 |
TW202302065A (zh) | 2023-01-16 |
CN116887802A (zh) | 2023-10-13 |
US20240051835A1 (en) | 2024-02-15 |
EP4291153A1 (fr) | 2023-12-20 |
MX2023009377A (es) | 2023-08-17 |
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